Asymptotic distributions of the number of zeros of random polynomials in Hayes equivalence class over a finite field

IF 1.2 3区数学 Q1 MATHEMATICS Finite Fields and Their Applications Pub Date : 2024-11-06 DOI:10.1016/j.ffa.2024.102524

Zhicheng Gao

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Abstract

Hayes equivalence is defined on monic polynomials over a finite field

F_{q}

in terms of the prescribed leading coefficients and the residue classes modulo a given monic polynomial Q. We study the distribution of the number of zeros in a random polynomial over finite fields in a given Hayes equivalence class. It is well known that the number of distinct zeros of a random polynomial over

F_{q}

is asymptotically Poisson with mean 1. We show that this is also true for random polynomials in any given Hayes equivalence class. Asymptotic formulas are also given for the number of such polynomials when the degree of such polynomials is proportional to q and the degree of Q and the number of prescribed leading coefficients are bounded by

\sqrt{q}

. When

Q = 1

, the problem is equivalent to the study of the distance distribution in Reed-Solomon codes. Our asymptotic formulas extend some earlier results and imply that all words for a large family of Reed-Solomon codes are ordinary, which further supports the well-known Deep-Hole Conjecture.

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有限域上 Hayes 等价类中随机多项式零点数的渐近分布

在有限域 Fq 上的单项式多项式上，海斯等价性是根据规定的前导系数和残差类 modulo 给定的单项式多项式 Q 定义的。众所周知，Fq 上随机多项式的独特零点数是渐近泊松分布，均值为 1。当此类多项式的度数与 q 成正比，且 Q 的度数和规定的前导系数数以 q 为界时，我们还给出了此类多项式数量的渐近公式。当 Q=1 时，问题等同于研究里德-所罗门码中的距离分布。我们的渐近公式扩展了之前的一些结果，并暗示一大系列里德-所罗门码的所有字都是普通的，这进一步支持了著名的深洞猜想。

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来源期刊

Finite Fields and Their Applications 数学-数学

CiteScore

2.00

自引率

20.00%

发文量

133

审稿时长

6-12 weeks

期刊介绍： Finite Fields and Their Applications is a peer-reviewed technical journal publishing papers in finite field theory as well as in applications of finite fields. As a result of applications in a wide variety of areas, finite fields are increasingly important in several areas of mathematics, including linear and abstract algebra, number theory and algebraic geometry, as well as in computer science, statistics, information theory, and engineering. For cohesion, and because so many applications rely on various theoretical properties of finite fields, it is essential that there be a core of high-quality papers on theoretical aspects. In addition, since much of the vitality of the area comes from computational problems, the journal publishes papers on computational aspects of finite fields as well as on algorithms and complexity of finite field-related methods. The journal also publishes papers in various applications including, but not limited to, algebraic coding theory, cryptology, combinatorial design theory, pseudorandom number generation, and linear recurring sequences. There are other areas of application to be included, but the important point is that finite fields play a nontrivial role in the theory, application, or algorithm.

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